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相关概念视频

Responses to Salt Stress02:02

Responses to Salt Stress

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Salt stress—which can be triggered by high salt concentrations in a plant’s environment—can significantly affect plant growth and crop production by influencing photosynthesis and the absorption of water and nutrients.
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Adaptations that Reduce Water Loss01:57

Adaptations that Reduce Water Loss

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Though evaporation from plant leaves drives transpiration, it also results in loss of water. Because water is critical for photosynthetic reactions and other cellular processes, evolutionary pressures on plants in different environments have driven the acquisition of adaptations that reduce water loss.
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Responses to Drought and Flooding02:41

Responses to Drought and Flooding

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Water plays a significant role in the life cycle of plants. However, insufficient or excess of water can be detrimental and pose a serious threat to plants.
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Responses to Heat and Cold Stress02:45

Responses to Heat and Cold Stress

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Every organism has an optimum temperature range within which healthy growth and physiological functioning can occur. At the ends of this range, there will be a minimum and maximum temperature that interrupt biological processes.
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Plant Breeding and Biotechnology01:59

Plant Breeding and Biotechnology

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Crop cultivation has a long history in human civilization, with records showing the cultivation of cereal plants beginning at around 8000 BC. This early plant breeding was developed primarily to provide a steady supply of food.
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Key Elements for Plant Nutrition02:35

Key Elements for Plant Nutrition

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Like all living organisms, plants require organic and inorganic nutrients to survive, reproduce, grow and maintain homeostasis. To identify nutrients that are essential for plant functioning, researchers have leveraged a technique called hydroponics. In hydroponic culture systems, plants are grown—without soil—in water-based solutions containing nutrients. At least 17 nutrients have been identified as essential elements required by plants. Plants acquire these elements from the...
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相关实验视频

Updated: Jul 8, 2025

Analysis of Effect of Compound Salt Stress on Seed Germination and Salt Tolerance Analysis of Pepper Capsicum annuum L.
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设计耐盐应激作物:目前的进展和未来的挑战

Xiaoyan Liang1, Jianfang Li2, Yongqing Yang1,3

  • 1State Key Laboratory of Plant Environmental Resilience, College of Biological Sciences, China Agricultural University, Beijing, 100094, China.

Journal of integrative plant biology
|December 18, 2023
PubMed
概括

了解植物的盐分耐受性对于全球作物生产至关重要. 本综述详细介绍了大米和小麦等耐盐作物的分子机制和育种策略.

关键词:
分子设计育种 分子设计育种耐盐应力作物作物的耐盐应力作物盐的耐受性 盐的耐受性

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科学领域:

  • 植物生物学 植物生物学
  • 分子遗传学 分子遗传学
  • 农业科学 农业科学

背景情况:

  • 土壤盐度对全球作物产量构成重大威胁.
  • 了解植物对盐的耐受性对于粮食安全至关重要.
  • 最近的进展已经确定了许多参与盐应激反应的基因.

研究的目的:

  • 审查关于植物盐耐受机制的当前知识.
  • 为了突出分子育种对耐盐作物的进步.
  • 讨论开发耐盐作物的策略和挑战.

主要方法:

  • 文献综述专注于分子和遗传研究.
  • 对盐耐受机制的分析,包括透应激,离子运输和氧化应激.
  • 检查模型植物和关键作物中的自然变异和育种方法.

主要成果:

  • 详细阐明了植物耐盐性背后的分子机制.
  • 确定参与盐应激反应的关键基因和途径.
  • 了解盐耐受性的自然变异和繁殖潜力的进展.

结论:

  • 在分子层面上了解植物的盐分耐受性方面取得了重大进展.
  • 分子设计育种为开发耐盐作物提供了有希望的策略.
  • 持续的研究对于克服作物盐耐受性的挑战至关重要.